Your search keyword '"Yusibov, Vidadi"' showing total 4 results

1. Purification and immunogenicity of hemagglutinin from highly pathogenic avian influenza virus H5N1 expressed in Nicotiana benthamiana

Author

Pua, Teen-Lee, Chan, Xiao Ying, Loh, Hwei-San, Omar, Abdul Rahman, Yusibov, Vidadi, Musiychuk, Konstantin, Hall, Alexandra C., Coffin, Megan V., Shoji, Yoko, Chichester, Jessica A., Bi, Hong, Streatfield, Stephen J., Pua, Teen-Lee, Chan, Xiao Ying, Loh, Hwei-San, Omar, Abdul Rahman, Yusibov, Vidadi, Musiychuk, Konstantin, Hall, Alexandra C., Coffin, Megan V., Shoji, Yoko, Chichester, Jessica A., Bi, Hong, and Streatfield, Stephen J.

Abstract

Highly pathogenic avian influenza (HPAI) H5N1 is an ongoing global health concern due to its severe sporadic outbreaks in Asia, Africa and Europe, which poses a potential pandemic threat. The development of safe and cost-effective vaccine candidates for HPAI is considered the best strategy for managing the disease and addressing the pandemic preparedness. The most potential vaccine candidate is the antigenic determinant of influenza A virus, hemagglutinin (HA). The present research was aimed at developing optimized expression in Nicotiana benthamiana and protein purification process for HA from the Malaysian isolate of H5N1 as a vaccine antigen for HPAI H5N1. Expression of HA from the Malaysian isolate of HPAI in N. benthamiana was confirmed, and more soluble protein was expressed as truncated HA, the HA1 domain over the entire ectodomain of HA. Two different purification processes were evaluated for efficiency in terms of purity and yield. Due to the reduced yield, protein degradation and length of the 3-column purification process, the 2-column method was chosen for target purification. Purified HA1 was found immunogenic in mice inducing H5 HA-specific IgG and a hemagglutination inhibition antibody. This paper offers an alternative production system of a vaccine candidate against a locally circulating HPAI, which has a regional significance.

Published

2017

2. Purification and immunogenicity of hemagglutinin from highly pathogenic avian influenza virus H5N1 expressed in Nicotiana benthamiana

Author

Pua, Teen-Lee, Chan, Xiao Ying, Loh, Hwei-San, Omar, Abdul Rahman, Yusibov, Vidadi, Musiychuk, Konstantin, Hall, Alexandra C., Coffin, Megan V., Shoji, Yoko, Chichester, Jessica A., Bi, Hong, Streatfield, Stephen J., Pua, Teen-Lee, Chan, Xiao Ying, Loh, Hwei-San, Omar, Abdul Rahman, Yusibov, Vidadi, Musiychuk, Konstantin, Hall, Alexandra C., Coffin, Megan V., Shoji, Yoko, Chichester, Jessica A., Bi, Hong, and Streatfield, Stephen J.

Abstract

Highly pathogenic avian influenza (HPAI) H5N1 is an ongoing global health concern due to its severe sporadic outbreaks in Asia, Africa and Europe, which poses a potential pandemic threat. The development of safe and cost-effective vaccine candidates for HPAI is considered the best strategy for managing the disease and addressing the pandemic preparedness. The most potential vaccine candidate is the antigenic determinant of influenza A virus, hemagglutinin (HA). The present research was aimed at developing optimized expression in Nicotiana benthamiana and protein purification process for HA from the Malaysian isolate of H5N1 as a vaccine antigen for HPAI H5N1. Expression of HA from the Malaysian isolate of HPAI in N. benthamiana was confirmed, and more soluble protein was expressed as truncated HA, the HA1 domain over the entire ectodomain of HA. Two different purification processes were evaluated for efficiency in terms of purity and yield. Due to the reduced yield, protein degradation and length of the 3-column purification process, the 2-column method was chosen for target purification. Purified HA1 was found immunogenic in mice inducing H5 HA-specific IgG and a hemagglutination inhibition antibody. This paper offers an alternative production system of a vaccine candidate against a locally circulating HPAI, which has a regional significance.

Published

2017

3. A launch vector for the production of vaccine antigens in plants.

Author

Musiychuk, K, Stephenson, N, Bi, H, Farrance, CE, Orozovic, Goran, Brodelius, Maria, Brodelius, Peter, Horsey, A, Ugulava, N, Shamloul, A-M, Mett, V, Rabindran, S, Streatfield, SJ, Yusibov, Vidadi, Musiychuk, K, Stephenson, N, Bi, H, Farrance, CE, Orozovic, Goran, Brodelius, Maria, Brodelius, Peter, Horsey, A, Ugulava, N, Shamloul, A-M, Mett, V, Rabindran, S, Streatfield, SJ, and Yusibov, Vidadi

Published

2007

4. Human-Derived, Plant-Produced Monoclonal Antibody for the Treatment of Anthrax

Author

FRAUNHOFER USA INC NEWARK DE CENTER FOR MOLECULAR BIOTECHNOLOGY, Hull, Anna K., Criscuolo, Carolyn J., Mett, Vadim, Groen, Herman, Steeman, Wilma, Westra, Hans, Chapman, Gail, Legutki, Bart, Baillie, Les, Yusibov, Vidadi, FRAUNHOFER USA INC NEWARK DE CENTER FOR MOLECULAR BIOTECHNOLOGY, Hull, Anna K., Criscuolo, Carolyn J., Mett, Vadim, Groen, Herman, Steeman, Wilma, Westra, Hans, Chapman, Gail, Legutki, Bart, Baillie, Les, and Yusibov, Vidadi

Abstract

The unpredictable nature of bio-terrorism compels us to develop medical countermeasures that will enable authorities to treat individuals exposed to agents such as anthrax. We report the feasibility of producing a protective, human-derived, monoclonal antibody directed against the protective antigen (PA) of Bacillus anthracis in plants. This was achieved by transient expression using agroinfiltration of Nicotiana benthamiana plants. The resulting antibody was able to neutralize toxin activity in vitro and in vivo at a comparable level to that seen for its hybridoma-produced counterpart., Pub. in Vaccine, v23 p2082-2086, 2005.

Published

2005